Metastasis is the deadliest and most poorly understood feature of malignant diseases. Recent work has shown that Metadherin (MTDH) is overexpressed in over 40% of breast cancer patients and promotes metastasis and chemoresistance in experimental models of breast cancer progression. Here we applied mass spectrometry-based screen to identify staphylococcal nuclease domain-containing 1 (SND1) as a candidate MTDH-interacting protein. After confirming the interaction between SND1 and MTDH, we tested the role of SND1 in breast cancer and found that it strongly promotes lung metastasis. SND1 was further shown to promote resistance to apoptosis and to regulate the expression of genes associated with metastasis and chemoresistance. Analyses of breast cancer clinical microarray data indicated that high expression of SND1 in primary tumors is strongly associated with reduced metastasis-free survival in multiple large scale data sets. Thus, we have uncovered SND1 as a novel MTDH-interacting protein and shown that it is a functionally and clinically significant mediator of metastasis.Metastasis is responsible for the majority of cancer-related deaths (1). An increasing number of genes have been implicated in mediating different steps of metastasis, but relatively few are mechanistically well characterized (2). One recently verified mediator of distant metastasis is Metadherin (MTDH 3 ; also called Lyric and AEG1 (3-5)). MTDH has been shown to be a key functional target of the 8q22 genomic gain that is frequently observed in poor prognosis breast cancer patients (6). Beyond promoting experimental lung metastasis (3, 6), multiple studies have implicated MTDH as a mediator of several cancer-related processes, such as oncogenesis and angiogenesis (7,8), invasion (9), chemoresistance (6, 10 -12), apoptosis resistance (13), and autophagy (14). Despite the abundance of MTDH phenotypes, a consensus understanding of its underlying molecular mechanisms has not yet been reached. MTDH has been shown to influence several oncogenic signaling pathways and transcription factors, such as Ha-Ras (15), PI3K/AKT (13), ERK, Wnt/-catenin (8), NF-B (16), c-Myc (15), and FOXO1/FOXO3a (17, 18). However, MTDH regulation of signaling pathways appears to be context-dependent with affected pathways varying by tumor type and cell line (19,20). Furthermore, prior work on MTDH molecular mechanisms has largely focused on hypothesis-driven investigations into the ability of MTDH to influence classical oncogenic pathways with little exploration to date on protein-level interactions (16,21).In this study, we aimed to expand the knowledge of MTDH molecular functionality and also uncover novel genes involved in promoting distant metastasis. Our approach utilized an unbiased, mass spectrometry-based screen for MTDH-interacting partners. We identified and characterized the interaction between MTDH and one such protein, SND1. SND1 is a multifunctional protein with reported roles in transcriptional activation (22), RNA editing (23, 24), formation of the RNAinduced ...
